Journal
AGRONOMY-BASEL
Volume 12, Issue 8, Pages -Publisher
MDPI
DOI: 10.3390/agronomy12081782
Keywords
cattle manure; corncob biochar; NPK fertilizer; ECOSAN; nutrient retention
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Funding
- Alexander von Humboldt Foundation [3.4-NGA1196552-HFST-P]
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This study assessed the responses of soil aggregates to the reapplication of biochar and organic/inorganic fertilizers. The results showed that the application of ecological sanitation manure increased soil fertility, while the combination of biochar with urea and cattle manure had a better effect on carbon and nitrogen accumulation in the soil.
Background: Knowledge of the responses of soil aggregates to various fertilization practices can contribute to sustainable soil management in urban vegetable agriculture. Aims: The study assessed the soil fertility, dry aggregate stability, and aggregate total carbon (TC) and nitrogen (TN) retention after the reapplication of biochar, and organic/inorganic fertilizers. Methods: Four replicates of ecological sanitation (ECOSAN) manure, NPK fertilizer, corncob biochar (CCB), and CCB, combined with urea and cattle manure (UCF), were established in a randomized complete block design. Results: The application of ECOSAN increased the soil pH and also resulted in significant accumulation of available phosphorus (P), calcium (Ca), and magnesium (Mg). Compared to CCB treatment, UCF + CCB produced significant increases in the TC, TN, P, Ca, and Mg concentrations by 53, 140, 227, 27, and 78%, respectively, and additionally increased the 4.75-2.00 mm large macroaggregates and mean weight diameter. The total carbon increased significantly in microaggregates (>0.25 mm); macroaggregates (4.75-0.25 mm); and in the micro- and macroaggregate fractions of the ECOSAN, CCB, and UCF + CCB treatments, respectively. More so, the TN in micro- and macroaggregates was increased maximally by UCF + CCB and minimally by the CCB treatment. Conclusions: The reapplication of CCB had limited potential for carbon sequestration in soil aggregates, but its combination with UCF better reflects carbon and nitrogen stabilization in micro- and macro- aggregates, with greater potential in large macroaggregates.
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